Introduction: Lumbar bone stress injuries (LBSI) are the most prevalent injury in cricket. While fast bowling technique has been implicated in the aetiology of LBSI, no previous study has attempted to prospectively analyse fast bowling technique and its relationship to LBSI. The aim of this study was to explore technique differences between elite cricket fast bowlers with and without subsequent LBSI. Methods: Kinematic and kinetic technique parameters previously associated with LBSI were determined for 50 elite male fast bowlers. Group means were compared using independent samples t-tests to identify differences between bowlers with and without a prospective LBSI. Significant parameters were advanced as candidate variables for a binary logi...
Supplementary files for article Lumbar bone stress injuries and risk factors in adolescent cricket f...
Abstract. In order to produce high ball release speeds, fast bowlers in cricket require high run-up ...
Cricket fast bowling generates substantial tri-planar trunk movement and ground reaction forces (GRF...
Introduction: Lumbar bone stress injuries (LBSI) are the most prevalent injury in cricket. While fas...
Lumbar bone stress injuries (LBSI) have the highest prevalence of any injury in cricket. The purpose...
The purpose of this thesis was to examine the nature and extent of cricket fast bowling injuries. In...
Objectives: To provide a concise overview of the prevalence and risk factors in the development of l...
Introduction: Localized bone mineral density (BMD) adaptation of the lumbar spine, particularly on t...
This study aimed to assess changes in bowling technique and lumbar load over the course of a bowling...
Cricket fast bowling is associated with a high prevalence of lumbar bone stress injuries (LBSI), esp...
data were analysed to: (1) identify the critical technique factors associated with trunk injuries an...
Objectives: This study aimed to identify modifiable mechanisms associated with low back injury in ad...
Bayne et al. (201 6) recently established a direct link between lumbar injury incidence and increase...
Lower back injury remains the most important injury problem in professional cricket with lumbar stre...
High ground reaction forces during the front foot contact phase of the bowling action are believed t...
Supplementary files for article Lumbar bone stress injuries and risk factors in adolescent cricket f...
Abstract. In order to produce high ball release speeds, fast bowlers in cricket require high run-up ...
Cricket fast bowling generates substantial tri-planar trunk movement and ground reaction forces (GRF...
Introduction: Lumbar bone stress injuries (LBSI) are the most prevalent injury in cricket. While fas...
Lumbar bone stress injuries (LBSI) have the highest prevalence of any injury in cricket. The purpose...
The purpose of this thesis was to examine the nature and extent of cricket fast bowling injuries. In...
Objectives: To provide a concise overview of the prevalence and risk factors in the development of l...
Introduction: Localized bone mineral density (BMD) adaptation of the lumbar spine, particularly on t...
This study aimed to assess changes in bowling technique and lumbar load over the course of a bowling...
Cricket fast bowling is associated with a high prevalence of lumbar bone stress injuries (LBSI), esp...
data were analysed to: (1) identify the critical technique factors associated with trunk injuries an...
Objectives: This study aimed to identify modifiable mechanisms associated with low back injury in ad...
Bayne et al. (201 6) recently established a direct link between lumbar injury incidence and increase...
Lower back injury remains the most important injury problem in professional cricket with lumbar stre...
High ground reaction forces during the front foot contact phase of the bowling action are believed t...
Supplementary files for article Lumbar bone stress injuries and risk factors in adolescent cricket f...
Abstract. In order to produce high ball release speeds, fast bowlers in cricket require high run-up ...
Cricket fast bowling generates substantial tri-planar trunk movement and ground reaction forces (GRF...